EP0034547A1 - Control device for the working condition of a solar panel installation - Google Patents

Control device for the working condition of a solar panel installation Download PDF

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Publication number
EP0034547A1
EP0034547A1 EP81400277A EP81400277A EP0034547A1 EP 0034547 A1 EP0034547 A1 EP 0034547A1 EP 81400277 A EP81400277 A EP 81400277A EP 81400277 A EP81400277 A EP 81400277A EP 0034547 A1 EP0034547 A1 EP 0034547A1
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EP
European Patent Office
Prior art keywords
voltage
accumulator
threshold
solar panel
input
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Granted
Application number
EP81400277A
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German (de)
French (fr)
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EP0034547B1 (en
Inventor
Jacques Résidence Fromonger APPT. no 1 Lecoeuche
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Moteurs Leroy Somer SA
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Moteurs Leroy Somer SA
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Publication of EP0034547A1 publication Critical patent/EP0034547A1/en
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    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02JCIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
    • H02J7/00Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
    • H02J7/34Parallel operation in networks using both storage and other dc sources, e.g. providing buffering
    • H02J7/35Parallel operation in networks using both storage and other dc sources, e.g. providing buffering with light sensitive cells
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02JCIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
    • H02J7/00Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
    • H02J7/007Regulation of charging or discharging current or voltage
    • H02J7/00712Regulation of charging or discharging current or voltage the cycle being controlled or terminated in response to electric parameters
    • H02J7/007182Regulation of charging or discharging current or voltage the cycle being controlled or terminated in response to electric parameters in response to battery voltage
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/50Photovoltaic [PV] energy
    • Y02E10/56Power conversion systems, e.g. maximum power point trackers

Definitions

  • the present invention relates to a device for controlling the operation of an installation for producing energy from at least one solar panel, this installation comprising at least one accumulator, for example lead, supplied by at least one solar panel with photovoltaic cells.
  • the installations to which the present invention applies generally comprise a solar panel which charges accumulators which supply one or more devices such as beacons, radio transmitters, lighting installations, referred to below as "use”. These facilities are most often established in sunny places but sparsely populated and poorly equipped, such as are encountered in Africa in particular.
  • the devices targeted by the invention have the role of controlling the rate of charging of the accumulator (s) by the solar panel, or of discharging the accumulators in use.
  • FIG. 6 of the aforementioned German document ELEKTRO TECHNIK teaches to install a power transistor whose emitter-collector line is mounted in series with a dissipating resistor connected to the terminals of the accumulator, while the base of this transistor is connected to the positive terminal of the accumulator via a regulator.
  • the regulator unlocks the transistor which then operates with variable resistance so as to limit the voltage at the terminals of the accumulator, taking into account the operating characteristics of the photovoltaic cells.
  • the known controllers consume appreciable power for their own operation, and thus encumber the power delivered to the accumulator, or even the reserve of the latter in the absence of sunshine. Thus, the operating time of the installation in the absence of sunshine is reduced.
  • the dissipation resistance produces considerable calorific power which must then be removed while heating the electronic components as little as possible, which are fragile in this respect.
  • the power thus dissipated can be admitted in the case of installations of a few Watts for example, but is unacceptable in the case of more substantial installations reaching for example 5 kW, which also form part of the field of the invention.
  • the object of the invention is to remedy the aforementioned drawbacks by providing a device for controlling the operation of a solar panel installation which is reliable, consumes little energy for its own operation, and ensures the limitation of the charging voltage. without dissipating significant amounts of energy by the Joule effect.
  • the invention thus relates to a device for controlling the operation of an installation for producing electrical energy from at least one solar panel with photovoltaic cells, this device comprising a charge controller mounted between a connection terminal for the panel solar and a connection terminal for the accumulator, this controller comprising a direct charging circuit, and means for limiting the charging voltage.
  • this device is characterized in that the means for limiting the charging voltage comprise a charging circuit under limited voltage comprising means for moving the operating point of the solar panel towards the high voltages which correspond to low currents, and means for producing, from the current delivered by the solar panel, a regulated voltage of a value suitable for the maintenance of the battery charge, the device further comprising a speed switch for switching from one load regime to another.
  • the means for limiting the charging voltage comprise a charging circuit under limited voltage comprising means for moving the operating point of the solar panel towards the high voltages which correspond to low currents, and means for producing, from the current delivered by the solar panel, a regulated voltage of a value suitable for the maintenance of the battery charge, the device further comprising a speed switch for switching from one load regime to another.
  • the speed switch disconnects the direct charge circuit and activates the charge circuit under limited voltage. Thanks to the means for moving the operating point of the solar panel, it provides very reduced power under high voltage.
  • the means for producing, from this energy, a regulated voltage intended for charging the accumulator reduce this voltage to a level at which the longevity of the accumulators is guaranteed.
  • the power supplied by the solar panel when this power is not necessary for charging the battery or supplying power is very weakened.
  • the load circuit under limited voltage does not require any electronic power components, and dissipates little energy by the Joule effect.
  • FIG. 1 The installation for producing electricity from solar energy represented in FIG. 1, which comprises a solar panel 1 with photovoltaic cells, is connected to a use 2 which can be a lighting or radio emission installation.
  • the installation also includes an accumulator 3, comprising twelve lead elements, intended to store the energy supplied in excess by the solar panel 1 or to restore energy in use 2 when the solar panel is not sufficient to supply this one.
  • the solar panel 1, the accumulator 3 and the use 2 are connected by a control device 4 which comprises a charge controller 6 and a discharge controller 7 of the accumulator 3.
  • the charge controller 6 comprises a terminal 8 for connection to the solar panel 1, a terminal 9 intended for the connection of the battery 3 and connected to a terminal 11 of the discharge controller 7, and two terminals 12, 13 for connecting the ground of the solar panel 1 to that of the accumulator 3 and to a grounding terminal 14 of the controller 7.
  • the latter further comprises a terminal 16 for connection of use 2 and a terminal 17 for connecting the ground of use 2 to that of the installation for producing electricity.
  • the terminals 8 and 9 of the charge controller 6 are connected by a conductor 18 on which are mounted in series a diode 19 allowing the passage of current from the panel 1 to the accumulator 3, and the contact 21 an electromechanical relay 22 which is closed when its winding 23 is at rest.
  • Relay 22 is part of a speed switch 24 which also includes a first threshold and hysteresis system 26, the input 27 of which is connected to terminal 9 and the output 28 supplies the winding 23 of relay 22.
  • the system 26 is capable of supplying at its output 28 a state "0" or a state “1” depending on the voltage applied to the input 27. More precisely, starting from the state “0" at the output 28, if the voltage at input 27 exceeds a high threshold, equal to 28.2 V, in the example shown, output 28 changes to state “1"; from this state, the voltage at input 27 must drop below a low threshold, equal to 21.6 V in the example shown, so that the voltage at output 28 returns to the state " 0 ".
  • the system 26 includes a comparator 29 which has a non-inverting input 31, an inverting input 32, and an output 33 connected to the base of a transistor 34 which is blocked if the voltage at the input 31 is greater than the voltage at input 32, and saturated otherwise.
  • the input 32 is connected to the common point 38 of two resistors 36, 37 connected in series between the input 27 and the ground.
  • the input 31 is connected to the input 27 of the system 26 via a resistor 39 and to ground via a Zener diode 41, which establishes a constant voltage at this input 31.
  • the emitter-collector line of transistor 34 is mounted between ground and two resistors 42, 43 connected in series which connect the transistor 34 to terminal 8.
  • the common point 44 of the resistors 42, 43 is connected to the base of a transistor 46 whose emitter-collector line connects the terminal 8 to the output 28 of the system 26, and, via a resistor 47, to the common point 38.
  • the contact 21 of the relay 22 is shunted by a load circuit under limited voltage 48 comprising a main branch 49 which connects the terminals 8 and 9 via a resistor 51 connected directly to the terminal 8 and a diode 52 which allows the passage of current from panel 1 to accumulator 3 ( Figure 2).
  • the common point 53 of the resistor 51 and the diode 52 is connected to ground by a capacitor 54 mounted in parallel with a resistor 56 arranged in series with the emitter-collector line of a transistor 57.
  • the base of transistor 57 is connected to the output 58 of a second threshold and hysteresis system 59, the input 61 of which is connected to the common point 53.
  • This threshold and hysteresis system 59 which operates in a manner substantially analogous to the first system 26, also has a second input 62 which is connected to the output 28 of the first system 26, and does not authorize the state "1" at the output 58 only if this input 62 is itself in state "1".
  • the low and high thresholds of the system 59 are advantageously 25.8 and 26.4 V and are thus respectively higher and lower than the low and high thresholds of the system 26.
  • the structure of the second threshold and hysteresis system 59 includes elements similar to those of the first system 26, and these elements have been assigned a reference increased by 100 compared to those of FIG. 4.
  • the voltage at the output 28 of the system 26, when it is in the state "1" is substantially equal to the voltage across the terminals of the accumulator 3.
  • the voltage at the input 62 of the second system 59 is close to the voltage across the terminals of the accumulator 3 and it was thus not necessary to materialize the input 61 shown for schematic purposes in the Figure 2.
  • the resistors 136 and 139 connect the inputs 131 and 132 to the input 62.
  • the presence of the transistor 57 makes it possible to connect the output 58 of the system 59 directly to the point 144 common to the resistors 143 and 142, and the resistor 147 connects the point 138 to the collector of the transistor 57.
  • the terminals 11 and 16 of the discharge controller 7 are connected by a conductor 64 on which are mounted a fuse 66 and, between the latter and the terminal 11, the contact 68 of an electro-mechanical relay 67, which is open when its winding 69 is not supplied.
  • the coil 69 is connected to terminal 16 via the collector-emitter line of a transistor 74, the base of which is connected to the output 76 of a threshold system 77, the structure of which will be detailed below, which is connected to terminal 16 by its input 78.
  • the winding 69 is also connected to the terminal 11 by by means of the buttons 71 and 72 and of two start-up buttons 79, 81 mounted in parallel, the button 79 forming part of the remote control 73.
  • the threshold system 77 which is shown in detail in FIG. 6, provides at its output 76 the state "1" only if the voltage at its input 78 is greater than a certain voltage threshold equal to 21.6 V in the example shown.
  • the threshold system 77 comprises elements analogous to those of the threshold and hysteresis systems 26, 59 and these analogous elements are assigned references corresponding to those of systems 26 and 29, but greater than 200.
  • output 76 of system 77 is connected directly to the collector of transistor 234, and system 77 does not include a connection between output 76 and input 232 of the comparator, so that system 77 does not produces no hysteresis effect.
  • the output 76 controls the supply of the winding 69 via a constant current circuit 82.
  • the base of the transistor 74 is connected to the output 76 by the inter median of a resistor 83, and to terminal 16 by a Zener diode 84.
  • the emitter-collector line of transistor 74 is connected to terminal 16 via a resistor 85.
  • the output 28 of the system 26 being in the state "0"
  • the output 58 of the system 59 is also in the state "0" so that the transistor 57 is blocked and that no current crosses the resistance 56.
  • the resistor 51 is traversed by a certain current until the capacitor 54 is charged.
  • the voltage at input 32 is equal to the voltage across the terminals of accumulator 3 multiplied by the ratio of the ohmic value of the resistor 37 and the sum of the ohmic values of the resistors 36 and 37.
  • the input 32 is then supplied in parallel by the resistor 36 and by the resistor 47 so that the voltage at the input 32 is increased for the same voltage at terminal 9.
  • the system 26, which changed state when the voltage at terminal 9 exceeded the high threshold (28.2 V) does not may return to state "0" only if the voltage at terminal 9 falls below the low threshold (21.6 V).
  • the input 132 (FIG. 5) of the comparator 129 is in turn subjected to a higher voltage than the input 131 so that the transistor 57 is turned on and the resistor 56 is put into service. Furthermore, the resistor 147 is also put into service, so that the voltage on the input 132 is increased so as to allow the hysteresis effect similar to that explained above for the system 26.
  • the capacitor 54 discharges through the resistor 56 thus put into service until the voltage at the input 61 falls below the low threshold (25.8 V), which causes blocking of the transistor 57.
  • the capacitor 54 then recharges through the resistor 51 until the voltage at the input 61 rises above the high threshold (26.4 V) of the system 59, which causes a new change of state of the latter and a new discharge of the capacitor 54 in the resistor 56, and so on.
  • FIG. 8 This operation is visualized in FIG. 8 where the collector-emitter voltage of the transistor 57 has been matched (curve in lower slots) and the voltage on the branch 49 which is the voltage across the terminals of the accumulator 3 ( sawtooth curve from above), according to the same time scale plotted on the abscissa.
  • the operating point of the photovoltaic cells moves, as a function of the voltage at their terminals, on lines such as L which each correspond to a determined illumination, characterized by a percentage in this figure.
  • lines such as L which each correspond to a determined illumination, characterized by a percentage in this figure.
  • equipuissances E which correspond to a power all the higher as they are distant from the origin O of the axes. coordinates.
  • the resistor 51 connected in series, limits the current supplied by the cells, and increases the voltage at their. terminals so that the operating point of the cells is located along the straight line Do which intersects each line L at a point corresponding to a very low power.
  • the illumination is only 50%, the current is 1.22 A so that the power dissipated in the resistor is 14.88 W and that dissipated in the transistor of 19.52 W is a total of 34 , 4 W. It can be shown that this illumination corresponds substantially to the maximum power dissipated in the transistor of the known controller.
  • the resistor 51 is 100 ohms
  • the voltage across the photovoltaic cells is 41 volts and the current is 0.14 amps.
  • the resistor 85 is subjected to a constant voltage equal to the voltage imposed by the Zener diode 84 minus the emitter-base voltage of the transistor 74.
  • the resistor 85 is traversed by a current constant which is found practically unchanged at the coil 69.
  • this current is chosen to be as low as possible so as to reduce the consumption of the discharge controller for its own operation.
  • the accumulator 3 does not risk being quickly emptied of its energy reserves in the event, for example, of lack of sunshine.
  • the charge controller 6 or the discharge controller 7 could be used separately, although they lead to particularly advantageous results if they are combined into a control device of the kind described.
  • threshold and / or threshold and hysteresis systems could be replaced by any assembly leading to an equivalent result.
  • control device described it is possible to use the control device described with an accumulator of a different type from the lead accumulator, or with a lead accumulator comprising more or less than twelve elements. In all these cases, the different voltage thresholds must be adapted to the properties of the accumulator used and to the number of elements which it comprises.

Abstract

1. Device for controlling the operation of an installation for production of electric power from at least one solar panel comprising photovoltaic cells (1), this device (4) comprising a charge controller (6) mounted between a connection terminal (8) for the solar panel (1) and a connection terminal (9) for the accumulator (3), the charge controller (6) comprising a regulated voltage charge circuit (48), this circuit comprising a branch (49) for the flow of charging current and means for regulating the voltage at the terminals of the accumulator, these means being intended to produce at one point of the branch aforesaid (49) a voltage which is substantially constant relatively to the other terminal of the accumulator (3), the device being characterized in that the regulated voltage charge circuit comprises a resistor (51) inserted in the branch aforesaid between the solar generator and the aforesaid point (53) of this branch, and that the device further comprises a direct charge circuit (18) which is connected is shunt with the aforesaid branch (49) of the regulated voltage charge circuit (48), and an operating-mode switch (24) for putting into service either the direct voltage charge circuit (18) or the regulated voltage charge circuit (48) as a function of the voltage at the terminals of the accumulator (3).

Description

La présente invention concerne un dispositif pour contrôler le fonctionnement d'une installation de production d'énergie à partir d'au moins un panneau solaire, cette installation comprenant au moins un accumulateur, par exemple au plomb, alimenté par au moins un panneau solaire à cellules photovoltaïques.The present invention relates to a device for controlling the operation of an installation for producing energy from at least one solar panel, this installation comprising at least one accumulator, for example lead, supplied by at least one solar panel with photovoltaic cells.

Les installations auxquelles s'applique la présente invention comprennent en général un panneau solaire qui charge des accumulateurs qui alimentent un ou plusieurs appareils tels que des balises, émetteurs radio, installations d'éclairage, désignés plus loin par "utilisation". Ces installations sont le plus souvent établies en des lieux bien ensoleillés mais peu habités et peu équipés, tels qu'on les rencontre en Afrique notamment.The installations to which the present invention applies generally comprise a solar panel which charges accumulators which supply one or more devices such as beacons, radio transmitters, lighting installations, referred to below as "use". These facilities are most often established in sunny places but sparsely populated and poorly equipped, such as are encountered in Africa in particular.

Les dispositifs visés par l'invention ont pour rôle de contrôler le régime de charge du ou des accumulateurs par le panneau solaire, ou de décharge des accumulateurs dans l'utilisation.The devices targeted by the invention have the role of controlling the rate of charging of the accumulator (s) by the solar panel, or of discharging the accumulators in use.

En effet, les installations de production d'électricité à partir de panneaux solaires doivent fonctionner sous des conditions techniques rigoureuses. C'est ainsi que les panneaux de cellules photovoltaiques ne peuvent sans dommages sérieux être mis en circuit ouvert, ou au contraire en circuit fermé sur une résistance trop faible. Par ailleurs, il faut maintenir les accumulateurs dans un intervalle de tension bien déterminé, par exemple entre 1,7 et 2,35 V par élément dans le cas des accumulateurs au plomb. A défaut, la durée de vie des accumulateurs est réduite, et leur réserve d'énergie possible amoindrie.In fact, installations for producing electricity from solar panels must operate under rigorous technical conditions. This is how the photovoltaic cell panels cannot without serious damage be placed in an open circuit, or on the contrary in a closed circuit on too low a resistance. In addition, the accumulators must be kept within a well-defined voltage range, for example between 1.7 and 2.35 V per cell in the case of lead-acid accumulators. Otherwise, the lifespan of the accumulators is reduced, and their possible energy reserve diminished.

On sait d'après le brevet français 2 041 576 (ACCUMULATEUR-CHARGEUR DARY), ainsi que d'après le document THE RADIO AND ELECTRONIC ENGINEER volume 35, n° 3, mars 1968, pages 135 à 145, et d'après le document ELEKTRO TECHNIK volume 59, n° 21, novembre 1977, pages 16 à 26, figure 5, limiter le courant de charge des batteries étanches, par exemple en introduisant une résistance en série entre la source électrique et la batterie. Ce procédé est valable aussi bien dans le cas d'une source électrique se comportant en source de tension que dans le cas des sources très particulières que sont les panneaux solaires. Dans ce dernier cas, la limitation du courant par la résistance entraine une chute appréciable de la puissance fournie par les panneaux solaires, et l'énergie dissipée par effet Joule dans la résistance est faible.We know from French patent 2,041,576 (ACCUMULATEUR-CHARGEUR DARY), as well as from THE RADIO AND ELECTRONIC ENGINEER volume 35, n ° 3, March 1968, pages 135 to 145, and from document ELEKTRO TECHNIK volume 59, n ° 21, November 1977, pages 16 to 26, figure 5, limiting the charging current of sealed batteries, by example by introducing a resistor in series between the electrical source and the battery. This process is valid both in the case of an electrical source behaving as a voltage source as in the case of very specific sources such as solar panels. In the latter case, the limitation of the current by the resistor causes an appreciable drop in the power supplied by the solar panels, and the energy dissipated by the Joule effect in the resistor is low.

Le problème posé par l'invention, consistant à limiter la tension de charge de la batterie, est beaucoup plus complexe. Dans ce cas, la figure 6 du document allemand précité ELEKTRO TECHNIK enseigne d'installer un transistor de puissance dont la ligne émetteur-collecteur est montée en série avec une résistance dissipatrice branchée aux bornes de l'accumulateur, tandis que la base de ce transistor est reliée à la borne positive de l'accumulateur par l'intermédiaire d'un régulateur.The problem posed by the invention, consisting in limiting the charging voltage of the battery, is much more complex. In this case, FIG. 6 of the aforementioned German document ELEKTRO TECHNIK teaches to install a power transistor whose emitter-collector line is mounted in series with a dissipating resistor connected to the terminals of the accumulator, while the base of this transistor is connected to the positive terminal of the accumulator via a regulator.

Ainsi, dès que la tension aux bornes de l'accumulateur devient excessive, le régulateur débloque le transistor qui fonctionne ensuite en résistance variable de manière à limiter la tension aux bornes de l'accumulateur, compte tenu des caractéristiques de fonctionnement des cellules photovoltaïques.Thus, as soon as the voltage at the terminals of the accumulator becomes excessive, the regulator unlocks the transistor which then operates with variable resistance so as to limit the voltage at the terminals of the accumulator, taking into account the operating characteristics of the photovoltaic cells.

Ces contrôleurs présentent de nombreux inconvénients. Ils sont en effet peu fiables, en particulier à cause de la présence de composants électroniques de puissance. Or les risques de panne sont rédhibitoires car ces appareils sont généralement installés en des lieux où les coûts et délais de réparation sont très importants, d'autant plus qu'une déficience du contrôleur risque d'endommager les accumulateurs et surtout les cellules photovoltaïques qui sont chères et délicates.These controllers have many drawbacks. They are indeed unreliable, in particular because of the presence of electronic power components. However, the risks of breakdown are prohibitive because these devices are generally installed in places where the costs and repair times are very high, especially since a deficiency in the controller risks damaging the batteries and especially the photovoltaic cells which are expensive and delicate.

Par ailleurs, les contrôleurs connus consomment une puissance appréciable pour leur propre fonctionnement, et grèvent ainsi la puissance délivrée à l'accumulateur, ou même la réserve de ce dernier en l'absence d'ensoleillement. Ainsi, la durée de fonctionnement de l'installation en l'absence d'ensoleillement est diminuée.Furthermore, the known controllers consume appreciable power for their own operation, and thus encumber the power delivered to the accumulator, or even the reserve of the latter in the absence of sunshine. Thus, the operating time of the installation in the absence of sunshine is reduced.

En outre, la résistance de dissipation produit une puissance calorifique considérable qu'il faut ensuite évacuer en échauffant le moins possible les composants électroniques, qui sont fragiles à cet égard. La puissance ainsi dissipée peut être admise dans le cas d'installations de quelques Watts par exemple, mais est inacceptable dans le cas d'installations plus conséquentes atteignant par exemple 5 kW, qui font également partie du domaine de l'invention.In addition, the dissipation resistance produces considerable calorific power which must then be removed while heating the electronic components as little as possible, which are fragile in this respect. The power thus dissipated can be admitted in the case of installations of a few Watts for example, but is unacceptable in the case of more substantial installations reaching for example 5 kW, which also form part of the field of the invention.

Le but de l'invention est de remédier aux inconvénients précités en réalisant un dispositif pour contrôler le fonctionnement d'une installation à panneau solaire qui soit fiable, consomme peu d'énergie pour son propre fonctionnement, et assure la limitation de la tension de charge sans dissiper des quantités importantes d'énergie par effet Joule.The object of the invention is to remedy the aforementioned drawbacks by providing a device for controlling the operation of a solar panel installation which is reliable, consumes little energy for its own operation, and ensures the limitation of the charging voltage. without dissipating significant amounts of energy by the Joule effect.

L'invention vise ainsi un dispositif pour contrôler le fonctionnement d'une installation de production d'énergie électrique à partir d'au moins un panneau solaire à cellules photovoltaïques, ce dispositif comprenant un contrôleur de charge monté entre une borne de branchement pour le panneau solaire et une borne de branchement pour l'accumulateur, ce contrôleur comprenant un circuit de charge directe, et des moyens pour limiter la tension de charge.The invention thus relates to a device for controlling the operation of an installation for producing electrical energy from at least one solar panel with photovoltaic cells, this device comprising a charge controller mounted between a connection terminal for the panel solar and a connection terminal for the accumulator, this controller comprising a direct charging circuit, and means for limiting the charging voltage.

Suivant l'invention, ce dispositif est caractérisé en ce que les moyens pour limiter la tension de charge comprennent un circuit de charge sous tension limitée comprenant des moyens pour déplacer le point de fonctionnement du panneau solaire vers les hautes tensions qui correspondent aux basses intensités, et des moyens pour produire, à partir du courant délivré par le panneau solaire, une tension régulée de valeur appropriée à l'entretien de la charge de l'accumulateur, le dispositif comprenant en outre un commutateur de régime pour passer d'un régime de charge à l'autre.According to the invention, this device is characterized in that the means for limiting the charging voltage comprise a charging circuit under limited voltage comprising means for moving the operating point of the solar panel towards the high voltages which correspond to low currents, and means for producing, from the current delivered by the solar panel, a regulated voltage of a value suitable for the maintenance of the battery charge, the device further comprising a speed switch for switching from one load regime to another.

Lorsque l'accumulateur, s'il est en régime de charge directe, atteint un seuil de tension considéré comme dangereux, le commutateur de régime débranche le circuit de charge directe et met en service le circuit de charge sous tension limitée. Grâce aux moyens pour déplacer le point de fonctionnement du panneau solaire, celui-ci fournit une puissance très réduite sous une tension élevée. Les moyens pour produire, à partir de cette énergie, une tension régulée destinée à la charge de l'accumulateur, ramènent cette tension à un niveau auquel la longévité des accumulateurs est garantie.When the accumulator, if it is in direct charge mode, reaches a voltage threshold considered dangerous, the speed switch disconnects the direct charge circuit and activates the charge circuit under limited voltage. Thanks to the means for moving the operating point of the solar panel, it provides very reduced power under high voltage. The means for producing, from this energy, a regulated voltage intended for charging the accumulator, reduce this voltage to a level at which the longevity of the accumulators is guaranteed.

Ainsi, la puissance fournie par le panneau solaire lorsque cette puissance n'est pas nécessaire pour la charge de la batterie ou l'alimentation de l'utilisation, est très affaiblie. Dans ces conditions, le circuit de charge sous tension limitée ne nécessite pas de composants électroniques de puissance, et ne dissipe que peu d'énergie par effet Joule.Thus, the power supplied by the solar panel when this power is not necessary for charging the battery or supplying power, is very weakened. Under these conditions, the load circuit under limited voltage does not require any electronic power components, and dissipates little energy by the Joule effect.

D'autres particularités et avantages de l'invention ressortiront encore de la description qui va suivre.Other features and advantages of the invention will emerge from the description which follows.

Aux dessins annexés, donnés à titre d'exemples non limitatifs :

  • - la figure 1 est une vue schématique d'une installation de production d'électricité par panneau solaire munie d'un dispositif de contrôle conforme à l'invention
  • - la figure 2 est un schéma du contrôleur de charge du dispositif de contrôle de la figure 1 ;
  • - la figure 3 est un schéma du contrôleur de décharge du dispositif de contrôle de la figure 1 ;
  • - la figure 4 est un schéma plus détaillé du premier système à seuil et hystérésis du contrôleur de charge de la figure 2 ;
  • - la figure 5 est un schéma plus détaillé du second système à seuil et hystérésis du contrôleur de charge de la figure 2 ;
  • - la figure 6 est un schéma plus détaillé du système à seuil du contrôleur de décharge de la figure 3 ;
  • - la figure 7 est un graphique sur lequel figurent les courbes caractéristiques des cellules photovoltalques et les droites de fonctionnement de ces cellules avec un contrôleur de charge connu et avec le contrôleur de charge conforme à l'invention ; et
  • - la figure 8 est un graphique qui visualise le fonctionnement du régulateur de tension du contrôleur de charge.
In the appended drawings, given by way of nonlimiting examples:
  • - Figure 1 is a schematic view of an installation for producing electricity by solar panel provided with a control device according to the invention
  • - Figure 2 is a diagram of the charge controller of the control device of Figure 1;
  • - Figure 3 is a diagram of the discharge controller of the control device of Figure 1;
  • - Figure 4 is a more detailed diagram of the first threshold and hysteresis system of the charge controller of Figure 2;
  • - Figure 5 is a more detailed diagram of the second threshold and hysteresis system of the charge controller of Figure 2;
  • - Figure 6 is a more detailed diagram of the threshold system of the discharge controller of Figure 3;
  • - Figure 7 is a graph on which appear the characteristic curves of photovoltaic cells and the operating lines of these cells with a known charge controller and with the charge controller according to the invention; and
  • - Figure 8 is a graph which shows the operation of the voltage regulator of the charge controller.

L'installation de production d'électricité à partir d'énergie solaire représentée à la figure 1, qui comprend un panneau solaire 1 à cellules photovoltalques, est reliée à une utilisation 2 qui peut être une installation d'éclairage ou de radio-émission.The installation for producing electricity from solar energy represented in FIG. 1, which comprises a solar panel 1 with photovoltaic cells, is connected to a use 2 which can be a lighting or radio emission installation.

L'installation comprend encore un accumulateur 3, comprenant douze éléments au plomb, destiné à emmagasiner l'énergie fournie en excès par le panneau solaire 1 ou à restituer de l'énergie à l'utilisation 2 quand le panneau solaire ne suffit pas à alimenter celle-ci.The installation also includes an accumulator 3, comprising twelve lead elements, intended to store the energy supplied in excess by the solar panel 1 or to restore energy in use 2 when the solar panel is not sufficient to supply this one.

Le panneau solaire 1, l'accumulateur 3 et l'utilisation 2 sont reliés par un dispositif de contrôle 4 qui comprend un contrôleur de charge 6 et un contrôleur de décharge 7 de l'accumulateur 3.The solar panel 1, the accumulator 3 and the use 2 are connected by a control device 4 which comprises a charge controller 6 and a discharge controller 7 of the accumulator 3.

Le contrôleur de charge 6 comporte une borne 8 de branchement au panneau solaire 1, une borne 9 destinée au branchement de l'accumulateur 3 et reliée à une borne 11 du contrôleur de décharge 7, et deux bornes 12, 13 pour relier la masse du panneau solaire 1 à celle de l'accumulateur 3 et à une borne 14 de mise à la masse du contrôleur 7.The charge controller 6 comprises a terminal 8 for connection to the solar panel 1, a terminal 9 intended for the connection of the battery 3 and connected to a terminal 11 of the discharge controller 7, and two terminals 12, 13 for connecting the ground of the solar panel 1 to that of the accumulator 3 and to a grounding terminal 14 of the controller 7.

Ce dernier comporte en outre une borne 16 de branchement de l'utilisation 2 et une borne 17 pour relier la masse de l'utilisation 2 à celle de l'installation de production d'électricité.The latter further comprises a terminal 16 for connection of use 2 and a terminal 17 for connecting the ground of use 2 to that of the installation for producing electricity.

Comme le montre la figure 2, les bornes 8 et 9 du contrôleur de charge 6 sont reliées par un conducteur 18 sur lequel sont montés en série une diode 19 permettant le passage du courant du panneau 1 vers l'accumulateur 3, et le contact 21 d'un relais électromécanique 22 qui est fermé quand son bobinage 23 est au repos.As shown in Figure 2, the terminals 8 and 9 of the charge controller 6 are connected by a conductor 18 on which are mounted in series a diode 19 allowing the passage of current from the panel 1 to the accumulator 3, and the contact 21 an electromechanical relay 22 which is closed when its winding 23 is at rest.

Le relais 22 fait partie d'un commutateur de régime 24 qui comprend en outre un premier système à seuil et hystérésis 26 dont l'entrée 27 est reliée à la borne 9 et la sortie 28 alimente le bobinage 23 du relais 22.Relay 22 is part of a speed switch 24 which also includes a first threshold and hysteresis system 26, the input 27 of which is connected to terminal 9 and the output 28 supplies the winding 23 of relay 22.

Le système 26 est capable de fournir sur sa sortie 28 un état "0" ou un état "1" selon la tension appliquée à l'entrée 27. Plus précisément, en partant de l'état "0" à la sortie 28, si la tension à l'entrée 27 dépasse un seuil haut, égal à 28,2 V, dans l'exemple représenté, la sortie 28 passe à l'état "1" ; à partir de cet état, la tension à l'entrée 27 doit redescendre en-dessous d'un seuil bas, égal à 21,6 V dans l'exemple représenté, pour que la tension à la sortie 28 revienne à l'état "0".The system 26 is capable of supplying at its output 28 a state "0" or a state "1" depending on the voltage applied to the input 27. More precisely, starting from the state "0" at the output 28, if the voltage at input 27 exceeds a high threshold, equal to 28.2 V, in the example shown, output 28 changes to state "1"; from this state, the voltage at input 27 must drop below a low threshold, equal to 21.6 V in the example shown, so that the voltage at output 28 returns to the state " 0 ".

En référence à la figure 4, le système 26 comprend un comparateur 29 qui comporte une entrée non inverseuse 31, une entrée inverseuse 32, et une sortie 33 reliée à la base d'un transistor 34 qui est bloqué si la tension à l'entrée 31 est supérieure à la tension à l'entrée 32, et saturé dans le cas contraire.Referring to Figure 4, the system 26 includes a comparator 29 which has a non-inverting input 31, an inverting input 32, and an output 33 connected to the base of a transistor 34 which is blocked if the voltage at the input 31 is greater than the voltage at input 32, and saturated otherwise.

L'entrée 32 est branchée au point commun 38 de deux résistances 36, 37 montées en série entre l'entrée 27 et la masse.The input 32 is connected to the common point 38 of two resistors 36, 37 connected in series between the input 27 and the ground.

L'entrée 31 est reliée à l'entrée 27 du système 26 par l'intermédiaire d'une résistance 39 et à la masse par l'intermédiaire d'une diode Zener 41, qui établit à cette entrée 31 une tension constante.The input 31 is connected to the input 27 of the system 26 via a resistor 39 and to ground via a Zener diode 41, which establishes a constant voltage at this input 31.

La ligne émetteur-collecteur du transistor 34 est montée entre la masse et deux résistances 42, 43 montées en série qui raccordent le transistor 34 à la borne 8.The emitter-collector line of transistor 34 is mounted between ground and two resistors 42, 43 connected in series which connect the transistor 34 to terminal 8.

Le point commun 44 des résistances 42, 43 est relié à la base d'un transistor 46 dont la ligne émetteur-collecteur relie la borne 8 à la sortie 28 du système 26, et, par l'intermédiaire d'une résistance 47, au point commun 38.The common point 44 of the resistors 42, 43 is connected to the base of a transistor 46 whose emitter-collector line connects the terminal 8 to the output 28 of the system 26, and, via a resistor 47, to the common point 38.

Le contact 21 du relais 22 est shunté par un circuit de charge sous tension limitée 48 comprenant une branche principale 49 qui relie les bornes 8 et 9 par l'intermédiaire d'une résistance 51 reliée directement à la borne 8 et d'une diode 52 qui permet le passage du courant du panneau 1 vers l'accumulateur 3 (figure 2).The contact 21 of the relay 22 is shunted by a load circuit under limited voltage 48 comprising a main branch 49 which connects the terminals 8 and 9 via a resistor 51 connected directly to the terminal 8 and a diode 52 which allows the passage of current from panel 1 to accumulator 3 (Figure 2).

Le point commun 53 de la résistance 51 et de la diode 52 est relié à la masse par un condensateur 54 monté en parallèle avec une résistance 56 disposée en série avec la ligne émetteur-collecteur d'un transistor 57.The common point 53 of the resistor 51 and the diode 52 is connected to ground by a capacitor 54 mounted in parallel with a resistor 56 arranged in series with the emitter-collector line of a transistor 57.

La base du transistor 57 est reliée à la sortie 58 d'un second système à seuil et hystérésis 59 dont l'entrée 61 est reliée au point commun 53.The base of transistor 57 is connected to the output 58 of a second threshold and hysteresis system 59, the input 61 of which is connected to the common point 53.

Ce système à seuil et hystérésis 59, qui fonctionne de manière sensiblement analogue au premier système 26, présente en outre une seconde entrée 62 qui est reliée à la sortie 28 du premier système 26, et n'autorise l'état "1" à la sortie 58 que si cette entrée 62 est elle-même à l'état "1".This threshold and hysteresis system 59, which operates in a manner substantially analogous to the first system 26, also has a second input 62 which is connected to the output 28 of the first system 26, and does not authorize the state "1" at the output 58 only if this input 62 is itself in state "1".

Les seuils bas et haut du système 59 sont avantageusement de 25,8 et 26,4 V et sont ainsi respectivement plus élevés et plus faibles que les seuils bas et haut du système 26.The low and high thresholds of the system 59 are advantageously 25.8 and 26.4 V and are thus respectively higher and lower than the low and high thresholds of the system 26.

Comme le montre la figure 5, la structure du second système à seuil et hystérésis 59 comporte des éléments analogues à ceux du premier système 26, et on a affecté à ces éléments une référence augmentée de 100 par rapport à ceux de la figure 4.As shown in FIG. 5, the structure of the second threshold and hysteresis system 59 includes elements similar to those of the first system 26, and these elements have been assigned a reference increased by 100 compared to those of FIG. 4.

Comme on l'a compris d'après le montage décrit en référence à la figure 4, la tension à la sortie 28 du système 26, quand elle est à l'état "1", est sensiblement égale à la tension aux bornes de l'accumulateur 3. Ainsi la tension à l'entrée 62 du second système 59 est voisine de la tension aux bornes de l'accumulateur 3 et il n'a ainsi pas été nécessaire de matérialiser l'entrée 61 figurée à des fins schématiques à la figure 2. Simplement, les résistances 136 et 139 relient les entrées 131 et 132 à l'entrée 62. On a bien ainsi, quand l'entrée 62 est à l'état "0", la sortie 58 également à l'état "0", et quand l'entrée 62 est à l'état "1", la sortie 58 à l'état "0" ou "1" selon la tension aux bornes de l'accumulateur 3.As understood from the assembly described with reference to Figure 4, the voltage at the output 28 of the system 26, when it is in the state "1", is substantially equal to the voltage across the terminals of the accumulator 3. Thus the voltage at the input 62 of the second system 59 is close to the voltage across the terminals of the accumulator 3 and it was thus not necessary to materialize the input 61 shown for schematic purposes in the Figure 2. Simply, the resistors 136 and 139 connect the inputs 131 and 132 to the input 62. We thus have, when the input 62 is in the state "0", the output 58 also in the state " 0 ", and when the input 62 is in the state" 1 ", the output 58 in the state" 0 "or" 1 "according to the voltage across the terminals of the accumulator 3.

Par ailleurs, la présence du transistor 57 permet de brancher la sortie 58 du système 59 directement sur le point 144 commun aux résistances 143 et 142, et la résistance 147 relie le point 138 au collecteur du transistor 57.Furthermore, the presence of the transistor 57 makes it possible to connect the output 58 of the system 59 directly to the point 144 common to the resistors 143 and 142, and the resistor 147 connects the point 138 to the collector of the transistor 57.

Comme le montre la figure 3, les bornes 11 et 16 du contrôleur de décharge 7 sont reliées par un conducteur 64 sur lequel sont montés un fusible 66 et, entre ce dernier et la borne 11, le contact 68 d'un relais électro-mécanique 67, qui est ouvert quand son bobinage 69 n'est pas alimenté.As shown in Figure 3, the terminals 11 and 16 of the discharge controller 7 are connected by a conductor 64 on which are mounted a fuse 66 and, between the latter and the terminal 11, the contact 68 of an electro-mechanical relay 67, which is open when its winding 69 is not supplied.

Le bobinage 69 est relié à la borne 16 par l'intermédiaire de la ligne collecteur-émetteur d'un transistor 74 dont la base est branchée sur la sortie 76 d'un système à seuil 77, dont la structure sera détaillée plus loin, qui est relié à la borne 16 par son entrée 78.The coil 69 is connected to terminal 16 via the collector-emitter line of a transistor 74, the base of which is connected to the output 76 of a threshold system 77, the structure of which will be detailed below, which is connected to terminal 16 by its input 78.

Entre le bobinage 69 et le transistor 74 sont montés en série deux boutons d'arrêt 71, 72 à contact fermé au repos, le bouton 71 faisant partie d'une commande à distance 73. Le bobinage 69 est également relié à la borne 11 par l'intermédiaire des boutons 71 et 72 et de deux boutons de mise en marche 79, 81 montés en parallèle, le bouton 79 faisant partie de la commande à distance 73.Between the winding 69 and the transistor 74 are mounted in series two stop buttons 71, 72 with the contact closed at rest, the button 71 forming part of a remote control 73. The winding 69 is also connected to the terminal 11 by by means of the buttons 71 and 72 and of two start-up buttons 79, 81 mounted in parallel, the button 79 forming part of the remote control 73.

Le système à seuil 77, qui est représenté en détail à la figure 6, fournit à sa sortie 76 l'état "1" seulement si la tension à son entrée 78 est supérieure à un certain seuil de tension égal à 21,6 V dans l'exemple représenté.The threshold system 77, which is shown in detail in FIG. 6, provides at its output 76 the state "1" only if the voltage at its input 78 is greater than a certain voltage threshold equal to 21.6 V in the example shown.

Le système à seuil 77 comprend des éléments analogues à ceux des systèmes à seuil et hystérésis 26, 59 et ces éléments analogues sont affectés de références correspondant à celles des systèmes 26 et 29, mais supérieures à 200.The threshold system 77 comprises elements analogous to those of the threshold and hysteresis systems 26, 59 and these analogous elements are assigned references corresponding to those of systems 26 and 29, but greater than 200.

Contrairement aux systèmes 26 et 59, la sortie 76 du système 77 est branchée directement au collecteur du transistor 234, et le système 77 ne comprend pas de liaison entre la sortie 76 et l'entrée 232 du comparateur, de sorte que le système 77 ne produit pas d'effet d'hystérésis.Unlike systems 26 and 59, output 76 of system 77 is connected directly to the collector of transistor 234, and system 77 does not include a connection between output 76 and input 232 of the comparator, so that system 77 does not produces no hysteresis effect.

Dans l'exemple représenté la sortie 76 commande l'alimentation du bobinage 69 par l'intermédiaire d'un montage à courant constant 82. Suivant ce montage 82, la base du transistor 74 est reliée à la sortie 76 par l'intermédiaire d'une résistance 83, et à la borne 16 par une diode Zener 84. Par ailleurs, la ligne émetteur-collecteur du transistor 74 est reliée à la borne 16 par l'intermédiaire d'une résistance 85.In the example shown, the output 76 controls the supply of the winding 69 via a constant current circuit 82. According to this circuit 82, the base of the transistor 74 is connected to the output 76 by the inter median of a resistor 83, and to terminal 16 by a Zener diode 84. Furthermore, the emitter-collector line of transistor 74 is connected to terminal 16 via a resistor 85.

Le dispositif de contrôle décrit ci-dessus fonctionne de la façon suivante :

  • En supposant d'abord que le relais 22 est fermé, l'accumulateur 3 est alimenté directement par le conducteur 18.
The control device described above operates as follows:
  • Assuming first that the relay 22 is closed, the accumulator 3 is supplied directly by the conductor 18.

La sortie 28 du système 26 étant à l'état "0", la sortie 58 du système 59 est également à l'état "0" de sorte que le transistor 57 est bloqué et qu'aucun courant ne traverse la résistance 56. Pendant un certain temps après la fermeture du relais 22, la résistance 51 est traversée par un certain courant jusqu'à ce que le condensateur 54 soit chargé.The output 28 of the system 26 being in the state "0", the output 58 of the system 59 is also in the state "0" so that the transistor 57 is blocked and that no current crosses the resistance 56. During some time after the relay 22 closes, the resistor 51 is traversed by a certain current until the capacitor 54 is charged.

En se référant à la figure 4, la tension à l'entrée 32 est égale à la tension aux bornes de l'accumulateur 3 multipliée par le rapport de la valeur ohmique de la résistance 37 et de la somme des valeurs ohmiques des résistances 36 et 37.Referring to FIG. 4, the voltage at input 32 is equal to the voltage across the terminals of accumulator 3 multiplied by the ratio of the ohmic value of the resistor 37 and the sum of the ohmic values of the resistors 36 and 37.

Si la tension aux bornes de l'accumulateur 3 atteint 28,2 V, la tension à l'entrée 32 devient supérieure à la tension à l'entrée 31, le transistor 46 est débloqué, et le bobinage 23 étant ainsi excité, le contact 21 s'ouvre et le circuit 48 entre en service. En pratique, ce régime correspond souvent au cas où l'utilisation 2 est hors service, et où seul le courant d'entretien de l'accumulateur 3 est nécessaire.If the voltage at the terminals of the accumulator 3 reaches 28.2 V, the voltage at input 32 becomes greater than the voltage at input 31, the transistor 46 is turned on, and the winding 23 being thus excited, the contact 21 opens and circuit 48 enters into service. In practice, this regime often corresponds to the case where the use 2 is out of service, and where only the maintenance current of the accumulator 3 is necessary.

En outre, l'entrée 32 est alors alimentée en parallèle par la résistance 36 et par la résistance 47 de sorte que la tension à l'entrée 32 est augmentée pour une même tension à la borne 9.In addition, the input 32 is then supplied in parallel by the resistor 36 and by the resistor 47 so that the voltage at the input 32 is increased for the same voltage at terminal 9.

Ainsi, le système 26, qui a changé d'état quand la tension à la borne 9 a dépassé le seuil haut (28,2 V) ne pourra revenir à l'état "0" que si la tension à la borne 9 redescend en dessous du seuil bas (21,6 V).Thus, the system 26, which changed state when the voltage at terminal 9 exceeded the high threshold (28.2 V) does not may return to state "0" only if the voltage at terminal 9 falls below the low threshold (21.6 V).

L'entrée 132 (figure 5) du comparateur 129 est à son tour soumise à une tension plus élevée que l'entrée 131 de sorte que le transistor 57 est débloqué et la résistance 56 est mise en service. Par ailleurs, la résistance 147 est elle aussi mise en service, de sorte que la tension sur l'entrée 132 est augmentée de façon à permettre l'effet d'hystérésis analogue à celui explicité ci-dessus pour le système 26.The input 132 (FIG. 5) of the comparator 129 is in turn subjected to a higher voltage than the input 131 so that the transistor 57 is turned on and the resistor 56 is put into service. Furthermore, the resistor 147 is also put into service, so that the voltage on the input 132 is increased so as to allow the hysteresis effect similar to that explained above for the system 26.

Revenant à la figure 2, le condensateur 54 se décharge à travers la résistance 56 ainsi mise en service jusqu'à ce que la tension à l'entrée 61 tombe en dessous du seuil bas (25,8 V), ce qui provoque le blocage du transistor 57. Le condensateur 54 se recharge alors à travers la résistance 51 jusqu'à ce que la tension à l'entrée 61 remonte au-dessus'du seuil haut (26,4 V) du système 59, ce qui provoque un nouveau changement d'état de ce dernier et une nouvelle décharge du condensateur 54 dans la résistance 56, et ainsi de suite.Returning to FIG. 2, the capacitor 54 discharges through the resistor 56 thus put into service until the voltage at the input 61 falls below the low threshold (25.8 V), which causes blocking of the transistor 57. The capacitor 54 then recharges through the resistor 51 until the voltage at the input 61 rises above the high threshold (26.4 V) of the system 59, which causes a new change of state of the latter and a new discharge of the capacitor 54 in the resistor 56, and so on.

. Ce fonctionnement est visualisé à la figure 8 où l'on a mis en correspondance la tension collecteur-émetteur du transistor 57 (courbe en créneaux du bas) et la tension sur la branche 49 qui est la tension aux bornes de l'accumulateur 3 (courbe en dents de scie du haut), en fonction de la même échelle de temps portée en abscisse.. This operation is visualized in FIG. 8 where the collector-emitter voltage of the transistor 57 has been matched (curve in lower slots) and the voltage on the branch 49 which is the voltage across the terminals of the accumulator 3 ( sawtooth curve from above), according to the same time scale plotted on the abscissa.

Comme le montre le graphique de la figure 7, sur lequel la tension est portée en abscisse et le courant en ordonnée, le point de fonctionnement des cellules photovoltalques se déplace, en fonction de la tension à leurs bornes, sur des lignes telles que L qui correspondent chacune à un éclairement déterminé, caractérisé par un pourcentage sur cette figure. On a par ailleurs représenté quelques équipuissances E, qui correspondent à une puissance d'autant plus élevée qu'elles sont éloignées de l'origine O des axes de coordonnées.As the graph in FIG. 7 shows, on which the voltage is plotted on the abscissa and the current on the ordinate, the operating point of the photovoltaic cells moves, as a function of the voltage at their terminals, on lines such as L which each correspond to a determined illumination, characterized by a percentage in this figure. We have also shown some equipuissances E, which correspond to a power all the higher as they are distant from the origin O of the axes. coordinates.

Dans les contrôleurs connus selon l'état de la technique mentionné plus haut, il est prévu de limiter la tension aux bornes de l'accumulateur en limitant simultanément la tension aux bornes des cellules à la même valeur, soit 28,2 V par exemple. Ainsi, le point de fonctionnement des cellules se déplace sur la droite D, qui coupe chaque ligne E en un des points de cette ligne où la puissance est la plus élevée. Il s'ensuit que la puissance à dissiper par effet Joule en cas de faible consommation dans l'utilisation est très importante, ce qui implique les inconvénients déjà énoncés plus haut.In the controllers known according to the state of the art mentioned above, provision is made to limit the voltage across the terminals of the accumulator by simultaneously limiting the voltage across the terminals of the cells to the same value, ie 28.2 V for example. Thus, the operating point of the cells moves to the line D, which intersects each line E at one of the points on this line where the power is the highest. It follows that the power to be dissipated by the Joule effect in the event of low consumption in use is very high, which implies the drawbacks already stated above.

Dans le régulateur 48 conforme à l'invention, la résistance 51, montée en série, limite le courant fourni par les cellules, et augmente la tension à leurs. bornes de sorte que le point de fonctionnement des cellules est situé le long de la droite Do qui coupe chaque ligne L en un point correspondant à une puissance très faible.In the regulator 48 according to the invention, the resistor 51, connected in series, limits the current supplied by the cells, and increases the voltage at their. terminals so that the operating point of the cells is located along the straight line Do which intersects each line L at a point corresponding to a very low power.

C'est ainsi que, selon une réalisation du contrôleur connu, on peut avoir une résistance de dissipation de 10 ohms, qui, pour un éclairement de 100 % est traversée par un courant de 2,6 A. La tension aux bornes de la résistance est donc de 26 V et la puissance dissipée dans la résistance est de 26 V x 2,6 A = 67,6 watts.Thus, according to an embodiment of the known controller, it is possible to have a dissipation resistance of 10 ohms, which, for an illumination of 100% is crossed by a current of 2.6 A. The voltage across the resistor is therefore 26 V and the power dissipated in the resistor is 26 V x 2.6 A = 67.6 watts.

Le ligne collecteur-émetteur du transistor de régulation, qui est montée en série avec la résistance aux bornes de l'accumulateur, est donc sous une tension de 28,2-26= 2,2V et dissipe une puissance de 2,2 V x 2,6 A = 5,72 W.The collector-emitter line of the regulating transistor, which is connected in series with the resistance across the terminals of the accumulator, is therefore under a voltage of 28.2-26 = 2.2V and dissipates a power of 2.2 V x 2.6 A = 5.72 W.

La puissance totale dissipée par effet Joule est donc de 67,6 + 5,72 = 73,32 watts.The total power dissipated by the Joule effect is therefore 67.6 + 5.72 = 73.32 watts.

Si l'éclairement n'est que de 50 %, le courant est de 1,22 A de sorte que la puissance dissipée dans la résistance est de 14,88 W et celle dissipée dans le transistor de 19,52 W soit au total 34,4 W. On peut montrer que cet éclairement correspond sensiblement à la puissance maximale dissipée dans le transistor du contrôleur connu.If the illumination is only 50%, the current is 1.22 A so that the power dissipated in the resistor is 14.88 W and that dissipated in the transistor of 19.52 W is a total of 34 , 4 W. It can be shown that this illumination corresponds substantially to the maximum power dissipated in the transistor of the known controller.

Dans le contrôleur de charge conforme à l'invention, si la résistance 51 est de 100 ohms, la tension aux bornes des cellules photovoltaïques est de 41 volts et le courant de 0,14 ampères.In the charge controller according to the invention, if the resistor 51 is 100 ohms, the voltage across the photovoltaic cells is 41 volts and the current is 0.14 amps.

On peut considérer que toute la puissance fournie est dissipée par effet Joule dans les résistances 51 et 56, et dans la ligne émetteur-collecteur du transistor 57, et cette puissance est égale à 41 volts x 0,14 ampères = 5,74 watts.We can consider that all the power supplied is dissipated by the Joule effect in the resistors 51 and 56, and in the emitter-collector line of the transistor 57, and this power is equal to 41 volts x 0.14 amperes = 5.74 watts.

Le transistor 57, qui est utilisé en commutation et non en résistance variable comme dans l'état de la technique, ne dissipe aucune puissance quand il est bloqué, et, présente quand il est saturé une tension émetteur-collecteur de 1 V qui correspond à une puissance dissipée de 1 V x 0,14 A = 0,14 W.The transistor 57, which is used in switching and not in variable resistance as in the state of the art, does not dissipate any power when it is blocked, and, when it is saturated, a emitter-collector voltage of 1 V which corresponds to a dissipated power of 1 V x 0.14 A = 0.14 W.

On constate donc que, dans le contrôleurde charge conforme à l'invention, la puissance maximale dissipée par effet Joule est divisée par 12, tandis que la puissance maximale dissipée par effet Joule dans le transistor 57 est divisée par 19,52, = 139.It can therefore be seen that, in the charge controller according to the invention, the maximum power dissipated by the Joule effect is divided by 12, while the maximum power dissipated by the Joule effect in the transistor 57 is divided by 1 9.52, = 139 .

0,14 Comme le montre la figure 3, quand l'utilisation 2 est hors service, le relais 67 est au repos en position ouverte. Pour mettre en marche l'utilisation, on appuie sur l'un des boutons 79 ou 81, de sorte que le bobinage 69 est excité par l'intermédiaire des boutons 71 et 72, et le contact 68 se ferme. Si la tension aux bornes de l'accumulateur 3, et par suite, la tension à l'entrée 78 du système à seuil 77 est supérieure à 21,6 V, le transistor 74 est conducteur, et quand on relâche le bouton 79 ou 81 précité, le bobinage 69 reste excité par l'intermédiaire de la ligne émetteur-collecteur du transistor 74 et de la résistance 85 (figure 6).0.14 As shown in FIG. 3, when use 2 is out of service, relay 67 is at rest in the open position. To start the use, one of the buttons 79 or 81 is pressed, so that the winding 69 is energized by means of the buttons 71 and 72, and the contact 68 closes. If the voltage at the terminals of the accumulator 3, and consequently, the voltage at the input 78 of the threshold system 77 is greater than 21.6 V, the transistor 74 is conductive, and when the button 79 or 81 is released above, the winding 69 remains excited via the emitter-collector line of the transistor 74 and the resistor 85 (Figure 6).

La résistance 85 est soumise à une tension constante égale à la tension imposée par la diode Zener 84 diminuée de la tension émetteur-base du transistor 74. Ainsi, grâce au montage 82, la résistance 85 est parcourue par un courant constant qui se retrouve pratiquement inchangé au bobinage 69. De préférence, ce courant est choisi aussi faible que possible de manière à diminuer la consommation du contrôleur de décharge pour son propre fonctionnement.The resistor 85 is subjected to a constant voltage equal to the voltage imposed by the Zener diode 84 minus the emitter-base voltage of the transistor 74. Thus, thanks to the assembly 82, the resistor 85 is traversed by a current constant which is found practically unchanged at the coil 69. Preferably, this current is chosen to be as low as possible so as to reduce the consumption of the discharge controller for its own operation.

Si la tension aux bornes de l'accumulateur 3 descend au-dessous de 21,6 volts, la sortie 76 passe à l'état "0" et le transistor 74 est bloqué, de sorte que, le bobinage 69 n'étant plus alimenté, le relais 67 s'ouvre et l'utilisation 2 n'est plus alimentée. Ainsi, l'accumulateur 3 ne risque pas d'être rapidement vidé de ses réserves d'énergie en cas par exemple d'absence d'ensoleillement.If the voltage at the terminals of the accumulator 3 drops below 21.6 volts, the output 76 goes to the state "0" and the transistor 74 is blocked, so that, the winding 69 is no longer supplied , relay 67 opens and use 2 is no longer supplied. Thus, the accumulator 3 does not risk being quickly emptied of its energy reserves in the event, for example, of lack of sunshine.

Si on désire arrêter le fonctionnement de l'utilisation 2, il suffit d'appuyer momentanément sur l'un des boutons d'arrêt 71, 72, ce qui interrompt l'alimentation du bobinage 69 et ouvre le contact 68. La sortie 76 est alors à l'état "0", et le transistor 74 est ainsi bloqué, de sorte qu'après relâchement du bouton 71 ou 72, le bobinage 69 n'est plus alimenté jusqu'à ce qu'on actionne à nouveau l'un des boutons 79 ou 81.If one wishes to stop the operation of use 2, it suffices to momentarily press one of the stop buttons 71, 72, which interrupts the supply of the winding 69 and opens the contact 68. The output 76 is then in the state "0" , and the transistor 74 is thus blocked, so that after releasing the button 71 or 72, the winding 69 is no longer supplied until one of the actuators is again actuated buttons 79 or 81.

Certains avantages de l'ensemble de contrôle conforme à l'invention sont les suivants :

  • - robustesse des relais électromécaniques 22 et 67 commandés par des composants électroniques fonctionnant en commutation ;
  • - faible dissipation d'énergie par effet Joule dans les résistances 51 et 56 et dans le transistor 57 en phase de régulation de tension ;
  • - faible consommation d'énergie par l'ensemble de contrôle pour son fonctionnement propre ;
  • - grâce au choix judicieux de la position repos des relais 22 et 67, minimisation de cette consommation aux périodes où l'énergie est la plus rare.
Some advantages of the control assembly according to the invention are as follows:
  • - robustness of the electromechanical relays 22 and 67 controlled by electronic components operating in switching mode;
  • - low energy dissipation by Joule effect in resistors 51 and 56 and in transistor 57 in voltage regulation phase;
  • - low energy consumption by the control unit for its own operation;
  • - thanks to the judicious choice of the rest position of relays 22 and 67, minimization of this consumption during periods when energy is most scarce.

Bien entendu, l'invention n'est pas limitée à l'exemple décrit et représenté, et de nombreux aménagements peuvent être apportés à cet exemple sans sortir du cadre de l'invention.Of course, the invention is not limited to the example described and shown, and numerous modifications can be made to this example without departing from the scope of the invention.

C'est ainsi en particulier que le contrôleur de charge 6 ou le contrôleur de décharge 7 pourraient être utilisés séparément, bien qu'ils conduisent à des résultats particulièrement intéressants s'ils sont combinés en un dispositif de contrôle du genre décrit.Thus, in particular, the charge controller 6 or the discharge controller 7 could be used separately, although they lead to particularly advantageous results if they are combined into a control device of the kind described.

Par ailleurs, les systèmes à seuil et/ou à seuil et hystérésis pourraient être remplacés par tout montage conduisant à un résultat équivalent.Furthermore, the threshold and / or threshold and hysteresis systems could be replaced by any assembly leading to an equivalent result.

Il est possible d'utiliser le dispositif de contrôle décrit avec un accumulateur-d'un type différent de l'accumulateur au plomb, ou avec un accumulateur au plomb comprenant plus ou moins que douze éléments. Dans tous ces cas, les différents seuils de tension doivent être adaptés aux propriétés de l'accumulateur utilisé et au nombre d'éléments qu'il comporte.It is possible to use the control device described with an accumulator of a different type from the lead accumulator, or with a lead accumulator comprising more or less than twelve elements. In all these cases, the different voltage thresholds must be adapted to the properties of the accumulator used and to the number of elements which it comprises.

Claims (8)

1. Dispositif pour contrôler le fonctionnement d'une installation de production d'énergie électrique à partir d'au moins un panneau solaire à cellules photovoltaïques (1), ce dispositif (4) comprenant un contrôleur de charge (6) monté entre une borne de branchement (8) pour le panneau solaire (1) et une borne de branchement (9) pour l'accumulateur (3), le contrôleur de charge (6) comprenant un circuit de charge directe (18) et des moyens pour limiter la tension de charge, ce dispositif étant caractérisé en ce que les moyens pour limiter la tension de charge comprennent un circuit de charge sous tension limitée (48) comprenant des moyens (51) pour déplacer le point de fonctionnement du panneau solaire (1) vers les hautes tensions qui correspondent aux basses intensités, et des moyens (54, 56, 57, 59) pour produire, à partir du courant délivré par le panneau solaire (1), une tension régulée de valeur appropriée à l'entretien de la charge de l'accumulateur (3), le dispositif comprenant en outre un commutateur de régime (24) pour passer d'un régime de charge à l'autre. 1 . Device for controlling the operation of an installation for producing electrical energy from at least one solar panel with photovoltaic cells (1), this device (4) comprising a charge controller (6) mounted between a connection terminal (8) for the solar panel (1) and a connection terminal (9) for the accumulator (3), the charge controller (6) comprising a direct charging circuit (18) and means for limiting the voltage of charging, this device being characterized in that the means for limiting the charging voltage comprise a charging circuit under limited voltage (48) comprising means (51) for moving the operating point of the solar panel (1) towards high voltages which correspond to low intensities, and means (54, 56, 57, 59) for producing, from the current delivered by the solar panel (1), a regulated voltage of value suitable for maintaining the charge of the accumulator (3), the device comprising at or be a speed switch (24) for switching from one load regime to another. 2. Dispositif conforme à la revendication 1, caractérisé en ce que le circuit de charge sous tension limitée (48) comprend un condensateur (54) et une résistance (56) montés en parallèle entre une branche principale (49) et la masse de l'installation, des moyens (57,59) étant prévus pour mettre en service cette résistance (56) quand la tension aux bornes de l'accumulateur (3) atteint un seuil haut et pour la débrancher quand cette tension atteint un seuil bas.2. Device according to claim 1, characterized in that the charging circuit under limited voltage (48) comprises a capacitor (54) and a resistor (56) mounted in parallel between a main branch (49) and the earth of the installation, means (57, 59) being provided to activate this resistor (56) when the voltage across the terminals of the accumulator (3) reaches a high threshold and to disconnect it when this voltage reaches a low threshold. 3. Dispositif conforme à la revendication 2, caractérisé en ce que ces moyens comprennent un transistor (57) dont la base est reliée à la sortie (58) d'un second système à seuil et hystérésis (59), l'entrée (61) de ce système (59) étant connrc- tée à la branche principale (49) entre les moyens (51) pour déplacer le point de fonctionnement du panneau solaire (1) et l'accumulateur (3).3. Device according to claim 2, characterized in that these means comprise a transistor (57) whose base is connected to the output (58) of a second threshold and hysteresis system (59), the input (61 ) of this system (59) being connected to the main branch (49) between the means (51) for moving the operating point of the solar panel (1) and the accumulator (3). 4. Dispositif conforme à la revendication 3, caractérisé en ce que le commutateur de régime (24) comprend un premier système à seuil et hystérésis (26) agencé nour commuter le régime en fonction de la tension aux bornes de l'accumulateur (3), ce système ayant un seuil haut et un seuil bas respectivement plus élevé et plus faible que le seuil haut et le seuil bas du second système à seuil et hystérésis (59).4. Device according to claim 3, characterized in that the speed switch (24) comprises a first threshold and hysteresis system (26) arranged to switch the speed as a function of the voltage across the terminals of the accumulator (3) , this system having a high threshold and a low threshold respectively higher and lower than the high threshold and the low threshold of the second threshold and hysteresis system (59). 5. Dispositif conforme à la revendication 4, caractérisé en ce que le second système à seuil et hystérésis (59) comprend une autre entrée (62), destinée à mettre la sortie (58) du système (59) à l'état "0" quand cette entrée (62) est elle-même à l'état "0", et reliée à la sortie (28) du premier système à seuil et hystérésis (26).5. Device according to claim 4, characterized in that the second threshold and hysteresis system (59) comprises another input (62), intended to put the output (58) of the system (59) in the state "0 "when this input (62) is itself in the state" 0 ", and connected to the output (28) of the first threshold and hysteresis system (26). 6. Dispositif conforme à l'une des revendications 1 à 5, caractérisé en ce qu'un contrôleur de décharge (7) est monté entre la borne (9) de branchement pour l'accumulateur (3) et une borne (16) de branchement pour l'utilisation (2).6. Device according to one of claims 1 to 5, characterized in that a discharge controller (7) is mounted between the connection terminal (9) for the accumulator (3) and a terminal (16) of connection for use (2). 7. Dispositif conforme à la revendication 6, caractérisé en ce que le contrôleur de décharge (7) comprend une branche principale (64) reliant les bornes de branchement (9, 16) à l'accumulateur (3) et à l'utilisation (2), cette branche (64) portant le contact (68) d'un relais (67) dont le bobinage (69) est alimenté par des moyens (76) sensibles à la tension dans la branche précitée (64), par l'intermédiaire d'un montage à courant constant (82).7. Device according to claim 6, characterized in that the discharge controller (7) comprises a main branch (64) connecting the connection terminals (9, 16) to the accumulator (3) and to the use ( 2), this branch (64) carrying the contact (68) of a relay (67) whose winding (69) is supplied by means (76) sensitive to the voltage in the aforementioned branch (64), by the through a constant current circuit (82). 8. Dispositif conforme à la revendication 7, caractérisé en ce que l'entrée (78) des moyens (76) sensibles à la tension de la branche principale (64) du contrôleur de décharge (7) est reliée à la borne de branchement (8) pour l'accumulateur (3) par l'intermédiaire du contact (68) du relais (67).8. Device according to claim 7, characterized in that the input (78) of the means (76) sensitive to the voltage of the main branch (64) of the discharge controller (7) is connected to the connection terminal ( 8) for the accumulator (3) via the contact (68) of the relay (67).
EP81400277A 1980-02-22 1981-02-20 Control device for the working condition of a solar panel installation Expired EP0034547B1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
FR8003900A FR2476928A1 (en) 1980-02-22 1980-02-22 REGIME CONTROLLER FOR A SOLAR PANEL INSTALLATION AND CONTROL ASSEMBLY THEREFOR
FR8003900 1980-02-22

Publications (2)

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EP0034547A1 true EP0034547A1 (en) 1981-08-26
EP0034547B1 EP0034547B1 (en) 1984-01-25

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EP81400277A Expired EP0034547B1 (en) 1980-02-22 1981-02-20 Control device for the working condition of a solar panel installation

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EP (1) EP0034547B1 (en)
DE (1) DE3161997D1 (en)
FR (1) FR2476928A1 (en)
MA (1) MA19077A1 (en)
OA (1) OA06746A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4626764A (en) * 1983-09-02 1986-12-02 The United States Of America As Represented By The Secretary Of The Navy Photovoltaic battery charge controller

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2041576A5 (en) * 1969-04-30 1971-01-29 Dary Accumulateur Charge
US3708738A (en) * 1970-12-22 1973-01-02 Frezzolini Electronics Inc Battery charging and discharging apparatus
FR2408237A1 (en) * 1977-11-03 1979-06-01 Serelec Sarl Uninterruptable electrical supply having storage battery - has controllable rectifier including power thyristors variably delayed by magnetic amplifier

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2041576A5 (en) * 1969-04-30 1971-01-29 Dary Accumulateur Charge
US3708738A (en) * 1970-12-22 1973-01-02 Frezzolini Electronics Inc Battery charging and discharging apparatus
FR2408237A1 (en) * 1977-11-03 1979-06-01 Serelec Sarl Uninterruptable electrical supply having storage battery - has controllable rectifier including power thyristors variably delayed by magnetic amplifier

Non-Patent Citations (3)

* Cited by examiner, † Cited by third party
Title
ELEKTOR, vol. 5, no. 7/8, juillet/août 1979 Cantebury GB H. HEERE: "Automatic Battery Charger", page 72 *
ELEKTROTECHNIK, vol. 59, no. 21, novembre 1977 Wurzburg DE H.K. KOTHE: "Solargeneratoren stellen hohe Anforderungen", pages 16-18, 23, 24 et 26 *
THE RADIO AND ELECTRONIC ENGINEER, vol. 35, no. 3, mars 1968, Londres GB F.C. TREBLE et al.: "The Ariel III Power System", pages 135-141. *

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4626764A (en) * 1983-09-02 1986-12-02 The United States Of America As Represented By The Secretary Of The Navy Photovoltaic battery charge controller

Also Published As

Publication number Publication date
OA06746A (en) 1982-06-30
FR2476928A1 (en) 1981-08-28
FR2476928B1 (en) 1984-05-18
DE3161997D1 (en) 1984-03-01
MA19077A1 (en) 1981-10-01
EP0034547B1 (en) 1984-01-25

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